Acids and Bases Problem set

Question 1: Water as a solvent

Which of the following properties of water explains its ability to dissolve acetic acid?

A.

The high surface tension of water, which is due to the formation of hydrogen bonds between adjacent water molecules.

B.

The ability to serve as a buffer, absorbing the protons given off by acetic acid.

C.

The ability to orient water molecules so that their polarities neutralize the ions formed when the acid dissociates.

D.

The ability to form hydrogen bonds with the carbonyl and the hydroxyl groups of acetic acid.

Tutorial

Water, The Major Biological Solvent

Water can stabilize ionized forms of molecules, such as Na+ , Cl- , K+ , Mg+ 2, Ca+ 2, SO4- 2, PO4- 2, and HCO3- . Water molecules adjacent to the ion simply orient themselves in such a way that the partially negative oxygen atoms surround a positive ion, while partially positive hydrogens surround a negative ion. For example, in the illustration below sodium chloride is shown in its crystalline form (left) and dissolved in water (right).

Water can form hydrogen bonds

The ability of water to form hydrogen bonds with other water molecules or with
other polar compounds is important for two reasons:

It gives water great cohesion and resistance to vaporization,

It allows for solvation of biomolecules which can also form hydrogen bonds.

Biomolecules such as sugars, proteins and nucleic acids that contain
protruding -NH2 or -OH groups resemble either ammonia or water itself. This
resemblance to ammonia or water allows water to form hydrogen bonds with
these molecules, resulting in the phenomenal solubility of certain
compounds in water. ("100%" solutions of sucrose are possible, i.e.
100mg/100ml!) Both ions and polar molecules are termed hydrophilic because they are readily dissolved in water.